Updated results on neutrino mass and mass hierarchy from cosmology with Planck 2018 likelihoods

Abstract

In this work we update the bounds on Σ m from latest publicly available cosmological data and likelihoods using Bayesian analysis, while explicitly considering particular neutrino mass hierarchies. In the minimal CDM+Σ m model with most recent CMB data from Planck 2018 TT,TE,EE, lowE, and lensing; and BAO data from BOSS DR12, MGS, and 6dFGS, we find that at 95\% C.L. the bounds are: Σ m<0.12 eV (degenerate), Σ m<0.15 eV (normal), Σ m<0.17 eV (inverted). The bounds vary across the different mass orderings due to different priors on Σ m. Also, we find that the normal hierarchy is very mildly preferred relative to the inverted, using both minimum 2 values and Bayesian Evidence ratios. In this paper we also provide bounds on Σ m considering different hierarchies in various extended cosmological models: CDM+Σ m+r, wCDM+Σ m, w0 wa CDM+Σ m, w0 wa CDM+Σ m with w(z)≥ -1, CDM + Σ m + k, and CDM + Σ m + ALens. We do not find any strong evidence of normal hierarchy over inverted hierarchy in the extended models either.